Membrane cholesterol modulates LOX-1 shedding in endothelial cells

The lectin-like oxidized low-density lipoprotein receptor-1 (LOX-1) is a scavenger receptor responsible for ox-LDL recognition, binding and internalization, which is up-regulated during atherogenesis. Its activation triggers endothelium dysfunction and induces inflammation. A soluble form of LOX-1 has been identified in the human blood and its presence considered a biomarker of cardiovascular diseases. We recently showed that cholesterol-lowering drugs inhibit ox-LDL binding and internalization, rescuing the ox-LDL induced apoptotic phenotype in primary endothelial cells. Here we have investigated the molecular bases of human LOX-1 shedding by metalloproteinases and the role of cell membrane cholesterol on the regulation of this event by modulating its level with MβCD and statins. We report that membrane cholesterol affects the release of different forms of LOX-1 in cells transiently and stably expressing human LOX-1 and in a human endothelial cell line (EA.hy926). In particular, our data show that i) cholesterol depletion triggers the release of LOX-1 in exosomes as a full-length transmembrane isoform and as a truncated ectodomain soluble fragment (sLOX-1); ii) endothelial cells secrete a soluble metalloproteinase which induces LOX-1 ectodomain shedding and iii) long term statins treatment enhances sLOX-1 proteolytic shedding

Modulation of the proteolytic activity of matrix metalloproteinase-2 (gelatinase A) on fibrinogen

The proteolytic processing of bovine fibrinogen by MMP-2 (gelatinase A), which brings about the formation of a product unable to form fibrin clots, has been studied at 37 degrees C. Catalytic parameters, although showing a somewhat lower catalytic efficiency with respect to thrombin and plasmin, indeed display values indicating a pathophysiological significance of this process. A parallel molecular modelling study predicts preferential binding of MMP-2 to the beta-chain of fibrinogen through its haemopexin-like domain, which has been directly demonstrated by the inhibitory effect in the presence of the exogenous haemopexin-like domain. However, the removal of this domain does not impair the interaction between MMP-2 and fibrinogen, but it dramatically alters the proteolytic mechanism, producing different fragmentation inter-mediates. The investigation at various pH values between 6.0 and 9.3 indicates a proton-linked behaviour, which is relevant for interpreting the influence on the process by environmental conditions occurring at the site of an injury. Furthermore, the action of MMP-2 on peroxynitrite-treated fibrinogen has been investigated, a situation possibly occurring under oxidative stress. The chemical alteration of fibrinogen, which has been shown to abolish its clotting activity, brings about only limited modifications of the catalytic parameters without altering the main enzymatic mechanism

Effect of axial coordination on the kinetics of assembly and folding of the two halves of horse heart cytochrome c

The kinetics of the assembly of two complementary fragments of oxidized horse heart cytochrome c (cyt c), namely the heme-containing fragment-(1-56) and the fragment-(57-104), have been characterized at different pH values. At neutral pH the fragment-(1-56) is hexacoordinated and has two histidines axially ligated to the heme-Fe(III) (Santucci, R., Fiorucci, L., Sinibaldi, F., Polizio, F., Desideri, A., and Ascoli, F. (2000) Arch. Biochem. Biophys. 379, 331-336), thus mimicking what occurs in the folding intermediate of cyt c. The kinetics of the formation of the complex between the two fragments are characterized at pH 7.0 by a slow rate constant that is independent of the concentration of the reactants; conversely, at a low pH the kinetics are much faster and depend on the concentration of the fragments. This behavior suggests that the rate-limiting step observed in the recombination process of the fragments at neutral pH (that leads to the final coordination of Met-80) has to be ascribed to the detachment of the "misligated" histidine. Thus, the faster recombination rate at a low pH can be related to the fact that histidine is protonated and not able to coordinate to the metal. Furthermore, the independence of the rate constant on the concentration of the reactants observed at pH 7.0 can be accounted for by the occurrence of a conformational transition, which takes place immediately after the two fragments collapse together, likely simulating what induces the detachment of the misligated histidine during cytochrome folding

Structural bases for substrate and inhibitor recognition by matrix metaloproteinases

Matrix metalloproteinases (MMPs) are a family of zinc-dependent endopeptidases which are involved in the proteolytic processing of several components of the extracellular matrix. As a consequence, MMPs are implicated in several physiological and pathological processes, like skeletal growth and remodelling, wound healing, cancer, arthritis, and multiple sclerosis, raising a very widespread interest toward this class of enzymes as potential therapeutic targets. Here, structure-function relationships are discussed to highlight the role of different MMP domains on substrate/inhibitor recognition and processing and to attempt the formulation of advanced guidelines, based on natural substrates, for the design of inhibitors more efficient in vivo. © 2008 Bentham Science Publishers Ltd

Production and characterization of monoclonal antibodies against L-carnitine: Radioimmunologic assays for L-carnitine determination

Monoclonal antibodies against L-carnitine have been produced and characterized, These antibodies have been found to specifically bind L-carnitine and, with different affinities, other carnitine-related compounds. No binding was observed with choline or acetylcholine. These antibodies have been used to measure L-carnitine in biological samples and serum. Data obtained demonstrate that, in biological samples, by using radiolabelled carnitine, it is possible quickly to detect small amounts of carnitine. The high specificity of the test is clearly demonstrated

Production and characterization of monoclonal antibodies against L-carnitine: Radioimmunologic assays for L-carnitine determination

Monoclonal antibodies against L-carnitine have been produced and characterized, These antibodies have been found to specifically bind L-carnitine and, with different affinities, other carnitine-related compounds. No binding was observed with choline or acetylcholine. These antibodies have been used to measure L-carnitine in biological samples and serum. Data obtained demonstrate that, in biological samples, by using radiolabelled carnitine, it is possible quickly to detect small amounts of carnitine. The high specificity of the test is clearly demonstrated

MONOCLONAL-ANTIBODY RECOGNIZES DIFFERENT QUINONE MOIETIES IN ENZYMES

We produced monoclonal antibodies against the coenzyme pyrrolequinoline quinone (PQQ). These antibodies were obtained by immunizing mice with PQQ conjugated to a chemically modified polypeptide in order to induce a strong immune response. Among the various antibodies obtained, one was found to bind (besides PQQ and 6-hydroxydopamine conjugated to carrier proteins) several different quinoenzymes, namely lentil seedling and bovine serum diamine oxidases and methylamine dehydrogenase. This antibody was able to inhibit the catalytic activity of these enzymes. Moreover, the monoclonal antibody recognized different proteins of lentil seeds on Western blots. Even the variable fragment of immunoglobulin heavy chains of this monoclonal antibody expressed in Escherichia coli is able to recognize the active site of different quinoenzymes

MONOCLONAL-ANTIBODIES THAT REACT WITH HUMAN BAND-3 RESIDUES-542-555 RECOGNIZE DIFFERENT CONFORMATIONS OF THIS PROTEIN IN UNINFECTED AND PLASMODIUM-FALCIPARUM-INFECTED ERYTHROCYTES

A monoclonal antibody generated against synthetic peptides patterned on amino acids 542-555 of human band 3, designated 1F4, specifically immunostained Plasmodium falciparum-infected erythrocytes and inhibited the cytoadherence of P. falciparum-infected erythrocytes to C32 amelanotic melanoma cells. 1F4 did not recognize intact band 3 protein on immunoblots, however it was reactive towards proteolytic fragments of band 3. The binding region of another murine monoclonal antibody previously reported to recognize the membrane spanning domain of human band 3, designated B6, was found to also recognize residues 542-555, however its properties differed from 1F4. Mab B6 recognized both infected and uninfected red cells, and reacted only with intact band 3 on immunoblots. Mab B6 was without effect on cytoadherence. These results demonstrate that monoclonal antibodies reactive against a common peptide sequence may bind to different conformations of the peptide sequence and suggest that the adherent competency of P. falciparum-infected erythrocytes may result from a change in the surface topography of human band 3 protein

MONOCLONAL-ANTIBODIES THAT REACT WITH HUMAN BAND-3 RESIDUES-542-555 RECOGNIZE DIFFERENT CONFORMATIONS OF THIS PROTEIN IN UNINFECTED AND PLASMODIUM-FALCIPARUM-INFECTED ERYTHROCYTES

A monoclonal antibody generated against synthetic peptides patterned on amino acids 542-555 of human band 3, designated 1F4, specifically immunostained Plasmodium falciparum-infected erythrocytes and inhibited the cytoadherence of P. falciparum-infected erythrocytes to C32 amelanotic melanoma cells. 1F4 did not recognize intact band 3 protein on immunoblots, however it was reactive towards proteolytic fragments of band 3. The binding region of another murine monoclonal antibody previously reported to recognize the membrane spanning domain of human band 3, designated B6, was found to also recognize residues 542-555, however its properties differed from 1F4. Mab B6 recognized both infected and uninfected red cells, and reacted only with intact band 3 on immunoblots. Mab B6 was without effect on cytoadherence. These results demonstrate that monoclonal antibodies reactive against a common peptide sequence may bind to different conformations of the peptide sequence and suggest that the adherent competency of P. falciparum-infected erythrocytes may result from a change in the surface topography of human band 3 protein

Kinetic investigation of porphyrin interaction with chiral templates reveals unexpected features of the induction and self-propagation mechanism of chiral memory

Kinetics of the porphyrin aggregation leading to a chiral memory system shows a remarkable "catalytic" effect of the noncovalent templates explaining their self-replication ability